import unittest from say import say # Tests adapted from `problem-specifications//canonical-data.json` @ v1.2.0 class SayTest(unittest.TestCase): def test_zero(self): self.assertEqual(say(0), "zero") def test_one(self): self.assertEqual(say(1), "one") def test_fourteen(self): self.assertEqual(say(14), "fourteen") def test_twenty(self): self.assertEqual(say(20), "twenty") def test_twenty_two(self): self.assertEqual(say(22), "twenty-two") def test_one_hundred(self): self.assertEqual(say(100), "one hundred") # additional track specific test def test_one_hundred_twenty_three(self): self.assertEqual(say(123), "one hundred and twenty-three") def test_one_thousand(self): self.assertEqual(say(1000), "one thousand") def test_one_thousand_two_hundred_thirty_four(self): self.assertEqual(say(1234), "one thousand two hundred and thirty-four") def test_one_million(self): self.assertEqual(say(1000000), "one million") def test_1002345(self): self.assertEqual( say(1002345), "one million two thousand three hundred and forty-five") def test_one_billion(self): self.assertEqual(say(1000000000), "one billion") def test_987654321123(self): self.assertEqual( say(987654321123), ("nine hundred and eighty-seven billion " "six hundred and fifty-four million " "three hundred and twenty-one thousand " "one hundred and twenty-three")) def test_number_too_large(self): with self.assertRaisesWithMessage(ValueError): say(1000000000000) def test_number_negative(self): with self.assertRaisesWithMessage(ValueError): say(-1) # Utility functions def setUp(self): try: self.assertRaisesRegex except AttributeError: self.assertRaisesRegex = self.assertRaisesRegexp def assertRaisesWithMessage(self, exception): return self.assertRaisesRegex(exception, r".+") if __name__ == '__main__': unittest.main()